Egypt Rocks! · 2009-11-13 · Egyptians mined precious stones, such as amethyst, beryl, lapis,...
Transcript of Egypt Rocks! · 2009-11-13 · Egyptians mined precious stones, such as amethyst, beryl, lapis,...
Memphis Archaeological and Geological Society Youth Newsletter
February 14, 2003 • Volume 2, Number 2
MAGS Explorer is published monthly by and for the youth members of the Memphis Archaeological and Geological Society. Please send your comments and articles to Editor
Mike Baldwin, 367 N. Main St., Collierville, TN 38017 or [email protected]. Youth can give articles, artwork, poems, puzzles, experiments, or stories to co-editors
Jennifer Baldwin, Emily Randolph, Kelly Baldwin, or Abbey Randolph.
Except for items that are specifically copyrighted by their authors, other societies may use material published in MAGS Explorer provided that proper credit is given
and the sense or meaning of the material is not changed. ©2003 Memphis Archaeological and Geological Society.
Egypt Rocks! The Egyptians were among the first human cultures to
use Copper, but they were also one of the first to develop Bronze, a mixture of
Tin and Copper, and usher in the Bronze Age of human history.
As early as 3900 BC, the Egyptians were developing
Copper products that became more and more common and
eventually showed up in common household
items such as cooking pots. By 2500 BC, Egyp-
tian jewelry makers had developed Copper
working to such a level that they were creat-
ing crowns and headdresses made of the metal.1
And did you know that King Solomon wore
Garnets during battle? Garnets have been found
in Egypt that date back as early as 3100 B.C. Gar-
nets were popular with early Egyptians in adorning
amulets and talismans. It is believed that garnets were
buried within the tombs of the dead, to provide light
and protection for passage into the afterlife.1
Quarrying of limestone and granite was already an ad-
vanced technology by the time of the pyramid builders in
Egypt.2 One of the most notable and lasting achievements
of the Ancient Egyptians are their pyramids. The size, de-
sign, and structure of the pyramids reveal the skill of these
ancient builders. The pyramids were great monuments and
tombs for the kings. The Egyptians believed that a king’s
soul continued to guide affairs of the kingdom even after
his death. To ensure that they would continue to enjoy the
blessings of the gods, they preserved the pharaoh’s body
through the mummification process. They built the pyra-
mids to protect the pharaoh's body, the pyra-
mid was a symbol of hope, because it would
ensure the pharaoh’s union with the gods.3
In addition to limestone and granite, the
Ancient Egyptians were using other stones,
such as alabaster, diorite, marble and serpen-
tine, for making statues and vases, basalt for
making sarcophagi, and dolomite for hammers
to work hard stone.
Thousands of objects
made of these materials
have been discovered
and are displayed in museums around the world. Early
Egyptians mined precious stones, such as amethyst, beryl,
lapis, lazuli, malachite, turquoise, and other minor precious
or semiprecious stones. The oldest mining map in exist-
ence is one of an Egyptian gold mine drawn on papyrus.
This map is now in the Museum of Turin, Italy. Today,
gold is found in Egypt mainly in the Eastern Desert.
Practically all the Egyptian gold mines known today
Stone palettes, like this one,were used about 3000BC for
grinding mineral pigments forpainting and cosmetics.
See Egypt Rocks! on page 3
MAGS EXPLORER * www.memphisgeology.org * [email protected]
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COLORING PAGE
An Egyptian priest studying the stars. Egyptian
astronomy never became a major science, but priests did
use the stars to develop a very complex calendar.
This page is from Life in Ancient Egypt Coloring Book, John Green,
Dover Publications, New York, NY, 1989. Reprinted for educational
purposes under the “fair use” provision of the U.S. Copyright Act.
MAGS EXPLORER * Memphis Archaeological and Geological Society
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EGYPT ROCKS!had already been worked by the Ancient Egyptians. A
small, 15cm long copper serpent, with a golden head
was discovered in a mining district in Sinai. It is be-
lieved that serpents such as this were used as amulets for
those bitten by a serpent.2
Blue pigment, one of the dominant colors of Ancient
Egypt, was an artificial frit that con-
sisted of crystalline copper calcium sili-
cate. This was made by heating together
silica, malachite, limestone, and natron.
Natron, naturally occurring sodium car-
bonate, also played an important role
in Ancient Egyptian mummification.2
Lets take a look at some of the
stones of Egypt:
[1] Limestone, mainly composed of
calcium carbonate, contains small pro-
portions of other ingredients such as,
silica, clay, oxide of iron and magne-
sium carbonate. Limestone was not only used as building
blocks for temples and tombs, but large number of tombs
were cut directly out the limestone hills.4
[2] Sandstone is made of quartz sand, which has been
cemented together by clay, calcium carbonate, iron oxide
or silica. Sandstone was used for building foundations,
pavements, pillars, arches, roof slabs and temple walls.4
[3] Granite is a large class of crystalline rocks of ligneous
origin, composed of a number of different minerals–chiefly
quartz, felspar and kistite mica, and sometimes hornblende
or augite. Granite was used as a lining material for cham-
bers, passages and door frames. It was used to line the inte-
rior of the three great pyramids at Giza. It was the most
common material used for making obelisks, and it was of-
ten used for constructing shrines, statues, and vessels.4
[4] Alabaster normally contains calcium sulphate (gyp-
continued from page one
sum). The alabaster material used in Ancient Egypt was
a very distinct material of similar appearance, which con-
tained calcium carbonate, so from a geological point of
view, Egyptian alabaster was calcite. Egyptian alabas-
ter was used to line passages, rooms and shrines. This
fine translucent stone was also used in the production of
small objects such as vases, bowls
and lamps. All but three of the sev-
enty-nine stone vessels found in the
tomb of Tutankhamun were made of
alabaster.4
[5] Basalt is a heavy, black heavy
rock composed of an aggregate of
minerals. In Ancient Egypt, basalt was
used in the construction of sarcophagi
and pavements and it was also used
for making statues and small objects.4
[6] Quartzite is a hard, compact va-
riety of sandstone that varies in both
color and texture, thus its color may be white, yellow, or
various shades of red, and its texture may be either fine-
grain or coarse-grain. Quartzite was used in making stat-
ues and sarcophagi.4
[7] Diorite is a white and greenish, felspar and black horn-
blende stone. It could be banded or speckled. Diorite was
used in making statues, bowls and other fine objects.4
–MIKE BALDWIN, MAGS EDITOR
Works Cited:1. History of Minerals; http://www.jewelrysupplier.com/history_links.htm;
February 5, 2003.
2. Spotlights on the Exploitation and Use of Minerals and Rocks throughthe Egyptian Civilization; http://www.sis.gov.eg/public/magazine/iiss010e/html/art06txt.htm; February 5, 2003.
3. Egypt: Art and Architecture; http://www2.sptimes.com/Egypt/EgyptCredit.4.4.html; February 5, 2003.
4. Pyramids: The Building Stones; Ancient Egypt; Think Quest InternetChallenge; ThinkQuest, Inc.; http://library.thinkquest.org/C0121761/110.htm; 2001.
©2003 ClipArt Today.
Used by permission.
MAGS EXPLORER * www.memphisgeology.org * [email protected]
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MEMBER PAGEIf there’s something you’ve been working on, that you’d like to see printed in the Explorer, then send it in. Whether it’s a
drawing, a picture, a poem, a story, an experiment, a joke, a serious bit of writing, a game, or a puzzle, here’s you’re change
to get it published. Email it to [email protected] or snail mail it to Jennifer and Kelly Baldwin, 367 North Main
Street, Collierville, TN 38017 or to Emily and Abbey Randolph, 6578 Birch Walk Drive, Memphis, TN 38117, or bring it to
the next MAGS meeting. However you decide to get it here, just get it here! And, remember, if it’s a drawing, make sure
you draw it in nice, dark ink. Have fun, go crazy, be creative, and don’t forget to tell us who did the work, and when.
“ZEBRA”Original drawing
by Jennifer Baldwin, 12/02
“FREEDOM”Original drawing
by Kelly Baldwin, 01/03
The Cave BoyBy Laura E. Richards
submitted by Abbey Randolph
I dreamed I was a cave boy
And lived in a cave,
A mammoth for my saddle horse
A monkey for my slave.
And through the tree-fern forests
A-riding I would go,
When I was once a cave boy
A million years ago.
I dreamed I was a cave boy
I hunted with a spear
The saber-toothed tiger,
The prehistoric deer
A wolf-skin for my dress suit,
I thought me quite a beau,
When I was a cave boy
A million years ago.
I dreamed I was a cave boy
My dinner was a bone
And now I had to fight for it,
To get it for my own!
We banged each other o’er the head,
And oft our blood did flow,
When I was once a cave boy
A million years ago.
I dreamed I was a cave boy
The torches’ smoky light
shone on the dinner table
A pile of bones so white
I lapped some water from the spring,
The easiest way, you know,
When I was once a cave boy
A million years ago.
I dreamed–but now I am awake;
A voice is in my ear.
“Come out and have a game of ball!
The sun is shining clear,
We’ll have some doughnuts afterwards,
And then a-swimming go!”
I’m glad I’m Not a cave-boy,
A million years ago!
❖❖❖❖❖
❖❖❖❖
Remember the families of the seven
astronauts who lost thier lives in the Shuttle
Columbia on February 1, 2003.
Commander Rick D. Husband
Pilot William C. McCool
Payload Commander Michael P. Anderson
Mission Specialist David M. Brown
Mission Specialist Kalpana Chawla
Mission Specialist Laurel Clark
Payload Specialist Ilan Ramon
❖
MAGS EXPLORER * Memphis Archaeological and Geological Society
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EARTH SCIENCE EXPERIMENTLINE-UPPurpose: To demonstrate that some minerals have a
definite cleavage line.
Materials: paper towels
Procedure: [1] Try to rip a single sheet of a paper
towel from top to bottom.
[2] Turn another sheet of paper towel
and try to tear it from side to side.
Results: The paper will tear easily in one direction
but not in the other.
Why? Paper towels are made on a wire screen,
creating a straight line in one direction.
Pulling on the paper attacks the weakest
point. The parallel lines on the paper made
by the wire screen are thinner than the rest
of the paper, and thus the paper rips easily
down one of these lines. Jagged and irregular
tears result when the paper is pulled in the
opposite direction. This is like cutting minerals,
such as diamonds, along cleavage lines. The mineral
splits smoothly and easily along the lines where the
molecules line up, but it can smash into irregular
pieces if hit across the cleavage line.
Janice VanCleave, Earth Science For Every Kid: 101 Easy Experiments That Really Work;John Wiley and Sons, Inc.; New York New York; 1991. Reprinted for educational purposesunder the “fair use” provision of the United States Copyright Act of 1976.
PYRITEPyrite is yellow.
Turn the page andcut out the PyriteSpecimen Card foryour collection.
LOOK OUT BELOW!Cave explorers are known as spelunkers and speleology is the study of underground
structures such as caves.
MAGS EXPLORER * www.memphisgeology.org * [email protected]
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NOTES FROM THE MEETING1. What is the name of the February Specimen-of-the-Month?
___________________________________________________
2. Cut out the specimen card and put it with your mineral specimen.
3. Name some of the minerals you used to create your gem tree.
___________________________________________________
This is your newsletter. Put your name on it, ___________________________________________________
and take it home with you. ___________________________________________________
___________________________________________________
Your Name ______________________________ ___________________________________________________
The answers to the question in Geology Challenge is B.
Name: Pyrite FeS2
Hardness: 6-6.5
Cleavage: none
Fracture: concoidal; brittle
Streak: greenish black
Crystals: Isometric
Location: Leadville, Colorado
GEOLOGY CHALLENGEChemical Weathering
Chemical weathering causes the minerals in rocks to change into substances that have different chemical compositions
and/or structures by removing or adding elements. The most important agents of chemical weathering are water, carbon
dioxide, and oxygen. Water decomposes rock in several ways. Hydrolysis is the reaction of any substance with water. Many
minerals are water soluble, that is, they dissolve in water. Water molecules are effective dissolving agents because they are
polar: one end of the water molecule is slightly negatively charged, while the other is slightly positively charged. If water
comes in contact with an ionic mineral, such as halite [composed of sodium and chloride ions], the attractive forces of the
water molecules pull ions away from the halite crystals and into
solution, in effect, dissolving the halite.
Water also chemically weathers rocks because water molecules
naturally split apart to form reactive ions of hydrogen. These
hydrogen ions act on particular minerals by replacing the positive
ions in the crystal structure and begin to decompose the mineral.CHECK IT OUT
The process of chemical weathering that occurs when water reacts
with minerals in a rock is called:
[a] rusting [c] reduction
[b] hydrolysis [d] oxidation
Michael Bentley, High School Review: Earth Science; Princeton Review Publishing,L.L.C.; New York New York; 1998; pg. 127-128.Reprinted for educational purposes under the “fair use” provision of the UnitedStates Copyright Act of 1976.
February Field TripNonconnah Creek, Memphis
February 15, 2003 is the date set for the MAGS
Field Trip to Nonconnah Creek to collect agates,
jaspers, petrified wood, and maybe even a few
Ice Age fossils. The creek is low enough this
time of year to expose some of the sand bars that
are normally covered by water. This is your
chance to check them out. Sign up tonight!